10-GPIO, 2 ACMPs, 16 LUTs (max.), 4 CNT/DLY (max.), 8 DFF/LATCH (max.) and other Macrocells
The SLG46120 provides a small, low power component for commonly used mixed-signal functions. The user creates their circuit design by programming the one time Non-Volatile Memory (NVM) to configure the interconnect logic, the I/O Pins and the macrocells of the SLG46120. This highly versatile device allows a wide variety of mixed-signal functions to be designed within a very small, low power single integrated circuit.
Lifecycle status
● Active
Macrocells Overview
Two Analog Comparators (ACMP);
Voltage References (Vref);
Five Combinatorial Look Up Tables (LUTs):
- One 2-bit LUT;
- Four 3-bit LUTs;
Twelve Combination Function Macro cell:
- Four Selectable DFF/Latch or 2-bit LUTs;
- Four Selectable DFF/Latch or 3-bit LUTs;
- One Selectable Pipe Delay or 3-bit LUT:
- Pipe Delay - 8 stage / 2 output;
- One Bandgap;
- Two Selectable Counter/Delay or 4-bit LUT;
- One Programmable Delay / Deglitch Filter;
Two Counter / Delay Generators (CNT/DLY):
- One 8-bit counter/delay;
- One 14-bit counter/delay with external clock/reset;
Eight D Flip-Flop / Latches (DFF) (Part of Combination Function Macrocell);
Pipe Delay - 8 stage/2 output (Part of Combination Function Macrocell);
RC Oscillator (RC OSC);
Power-On-Reset (POR).
Features
Logic & Mixed Signal Circuits
Highly Versatile Macrocells
1.8V (±5%) to 5V (±10%) Supply
Operating Temperature Range: -40°C to 85°C
RoHS Compliant / Halogen-Free
Pb-Free 12-pin STQFN
Applications
Personal Computers and Servers
PC Peripherals
Consumer Electronics
Data Communications Equipment
Handheld and Portable Electronics
Packages and Ordering
SLG46120V: STQFN-12 (1.6 x 1.6 x 0.55 mm, 0.4 mm pitch)
SLG46120P: STQFN-12 (2.0 x 2.0 x 0.55 mm, 0.5 mm pitch)
The product ID suffix indicates the package style.
Stay connected
Get in touch with us directly through our worldwide sales offices, or contact one of our global distributors and representatives.
Inquiries Distributors and Representatives Register for newslettersGreenPAK Configurable Mixed-signal IC Introduction
GreenPAK Designer Software
GreenPAK Development Platform
Choosing the Right GreenPAK
GreenPAK SPICE Introduction
LED Dimmer
View the full list of the GreenPAK videos in our Training Video Library.
This product is available in two packages:
SLG46120V: STQFN-12 (1.6 x 1.6 x 0.55 mm, 0.4 mm pitch)
SLG46120P: STQFN-12 (2.0 x 2.0 x 0.55 mm, 0.5 mm pitch)
The development board comparison tool below recommends the V version of the chip, but you can also use the P version - see further down the page to purchase those components.
Development board selector
Provides full programming, emulation and testing functions for GreenPAK devices. For use with SLG46xxxX-SKT sockets kits.
Working in tandem with the GreenPAK Designer software, GreenPAK Advanced Development Board allows designers to:
- Program custom samples in minutes
- Test GreenPAK projects in-circuit
- Develop using any GreenPAK device
Suitable for:
- Programming
- Emulation
- Signal and Logic Generators
Features:
- USB interface
- MacOS, Windows and Linux compatible
- Programming and Emulation
- Gated expansion header for connection to external test equipment
- Integrated signal and logic generators
- LEDs for visual indication
Perfect for breadboarding and fast prototypes.
Working in tandem with the GreenPAK Designer software, GreenPAK DIP Development Board allows designers to:
- Program custom samples in minutes
- Test GreenPAK projects in-circuit
Suitable for:
- Programming
- Emulation
Features:
- USB interface
- MacOS, Windows and Linux compatible
- Programming and Emulation
- Gated expansion header for connection to external test equipment
GreenPAK Advanced Development Board
Provides full programming, emulation and testing functions for GreenPAK devices.
- Programming
- Emulation
- Signal and Logic Generators
GreenPAK DIP Development Board
Perfect for breadboarding and fast prototypes.
Working in tandem with the GreenPAK Designer software, GreenPAK DIP Development Board allows designers to:
- Program custom samples in minutes
- Test GreenPAK projects in-circuit
- Programming
- Emulation
Other components
Programmable Mixed-signal Matrix. 1.8 V to 5.5 V. 10-GPIO, 2 ACMPs, 5 LUTs, 11 Combination Function Macrocells and other Counter/Delay/FF Macrocells. Package: STQFN-12.
Price table:
| Qty | 1-50 | 51+ |
|---|---|---|
| Price | Free* | $0.30 |
*You only pay for shipping
Programmable Mixed-signal Matrix. 1.8 V to 5.5 V. 10-GPIO, 2 ACMPs, 5 LUTs, 11 Combination Function Macrocells and other Counter/Delay/FF Macrocells. Package: STQFN-12.
Price table:
| Qty | 500-2,999 | 3,000-8,999 | 9,000+ |
|---|---|---|---|
| Price | $0.30 | $0.25 | Contact Dialog |
A unique marking will be assigned to each programmed unit. If you already have a PN assigned, please indicate it in comments field during checkout.
Included are: SLG4SA12-16x16 socket adapter, 50 SLG46120V samples.
20-pin DIP Proto Board*. Perfect for breadboarding and fast prototypes.
*requires the GreenPAK DIP Adapter (SLG4SA-DIP) to use it with the GreenPAK Advanced Development Board.
GreenPAK DIP Adapter for GreenPAK Advanced Development Board. Allows the use of the SLG46xxxV-DIP Proto boards with the GreenPAK Advanced Development Board. Acts as the bridge between Advanced and DIP Development Platforms.
You can no longer post questions or comments on this page. All product forum activity on the Dialog Semiconductor website are being migrated to a new platform called RenesasRulz communicated to users 4 May. Renesas Electronics Corporation (“Renesas”) will be the service provider and processor managing this move on behalf of Dialog Semiconductor PLC. (“Dialog Semiconductor”). In due course you will receive a welcome email from Renesas providing detailed information on accessing your new RenesasRulz account.
Back to results
GreenPAK and GreenFET
4 months ago
Programming Sequence for SLG46880
Posted by EEMichael 105 points 11 repliesHi,
I would like to know how the programming sequence look like?
I can not find any documentation on this and need to know what the steps are to program the SLG46880 chip.
Also, any information on the communication protocol during programming would be helpful so that I can understand the programming process.
I need this information to decide if the SLG46880 device will meet our requirements.
Best Regards,
Michael Henriksson
4 months ago
EEMichael,
We do not publish information on the programming steps for our OTP devices, because it is not done by customers. The chip you order will be either programmed on the factory or programmed using our board. In both ways there is no need to know how it is programmed. SLG46880 is not an ISP device.
Perhaps the best way forward would be to set up a call to discuss your needs and our capabilities to meet those requirements.
Best regards,
Oleh Sapiha
4 months ago
Hi Oleh,
Eaven if we use your board, what are the steps?
Is it programmed from a hex file or...?
Is it done via GreenPAK Designer or can it be done via another interface/program to guarantee that the design can not be changed before programming?
Best regard,
Michael
4 months ago
EEMichael,
You have to have one of our development boards, where you start the Debug button and you can use the Emulation Mode to test and debug the design. You don't need to program the chip for and after you are fine with your project press the button Program board will automatically program the chip by your project. See the attached figure, where I highlighted these steps.
Since the programming protocol is not described anywhere, there are no other tools, except Go Configure Software Hub and our boards, which support programming the chips.
Best regards,
Oleh Sapiha
| Attachment | Size |
|---|---|
| 880 programming.png | 142.9 KB |
4 months ago
Hi Oleh,
Thank you for the answer.
Can the SLG46880 be programmed mounted on the final PCB? If so, which pins should be routed to the programming interface and which pins from the GreenPAK Advanced Development Board is they connected to?
Also, is theer any documentation on this, i.e. which pins etc?
Best regards,
Michael Henriksson
accepted answer!
3 months ago
EEMichael,
Theoretically yes, it can be programmed on the final PCB, but we do not recommend doing it in such a way, since in order to program it the high Vpp is applied to one of the PINs, and if this PIN is externally connected to another device, it could be damaged. As said previously we do not publish the documentation about the programming procedure. To program the chip externally you have to connect PIN31, PIN14, PIN7, PIN8, PIN5, PIN28 to board.
Best regards,
Oleh Sapiha
3 months ago
Hi Oleh,
I have been looking in to the programming interface and have a few follow-up questions.
Due to requirements we have to program these chips ourselves and I am now wondering if there is any way to automate the programming process? For example, via a command line or commands to your boards?
We would like to eliminate the risk by doing it manually.
Best regards,
Michael Henriksson
3 months ago
EEMichael,
Unfortunately, we don't have any other tools available to program the chip except the GreenPAK designer and board.
Best regards,
Oleh Sapiha
3 months ago
I have understood that.
What I am asking is if there is a possability to use commands within the tools?
Best regards,
Michael Henriksson
accepted answer!
3 months ago
EEMichael,
We do not recommend using the board in any way except in its direct function. It may cause either damaging board or wrong chip programming.
Best regards,
olehs
3 months ago
Ok, thank you for the help and answers!
Best regards,
Michael
4 months ago
I would also like to know if SLG46880 is in-system programmable. i.e. can it be programmed mounted on a PCB?